SU1111787A1 - Extractor of continuous action for solid-liquid system - Google Patents

Abstract

1. EXTRACTOR OF CONTINUOUS ACTION FOR SYSTEM A SOLID BODY LIQUID, containing a vertical cylindrical body, braking devices uniformly fixed over the cross section of the body, a shaft with a screw mixer placed on it, a device for loading solid material and a device for unloading with a branch pipe for removing solid material made in the form of a self-cleaning screw and device for the input and output of the liquid phase, characterized in that, in order to intensify the extraction process and reduce the sweat The extractant in the raw material, the device for unloading solid material, is made in the form of a non-linear double-ended 1-screw auger with a constant you, one hundredth coil placed coaxially with the mixing device shaft, and mounted on the body flush with the end of the conical auger of a cylindrical chamber equipped with a scraper placed on the end of the auger. 2. The extractor according to claim 1, characterized in that the device for introducing the liquid phase is made in the form of a cylindrical chamber located coaxially with the housing, wherein the surface of the housing placed inside the cylindrical chamber is perforated. 3. Extractor according to claim 1, characterized in that the device for outputting the liquid phase is made in the form of a cylindrical cup located in the lower part of the body, while the surface of the body is 100 | Schenna inside the glass, perforated.

Description

The invention relates to a solid-liquid extraction technique in the system and can be used to extract useful substances from various types of plant-based, predominantly dried, herbal and floral raw materials in the pharmaceutical and food, for example, non-alcoholic and alcoholic beverage industries. A drum inclined extractor is known, with a spiral conveyor of 1 m inside it, forming a number of chambers and teeth on the case of a rotating bar til. However, the design of the extractor does not interfere with the floating of the unwetted dried herbal and floral plant material, into which, at the beginning of extraction, the extractant did not penetrate, as a result of which the contact between the phases deteriorates, which reduces the intensity of the mass transfer mechanisms. The device for unloading the solid material of the extractor cannot provide pressing of the raw material that has the ability to absorb the extractant in an amount of 250-300% (by weight of dry raw material), which causes large losses of the extractant in the raw material. In addition, the complexity of the design of this extractor causes difficulties in its manufacture, maintenance (preventive cleaning apparatus, caused by the need to observe microbiological purity), as well as operation, since the movement of the solvent (miscella) from the bottom up requires the tightness of the chambers to prevent mixing miscella from adjacent chambers with different content of extractives. The closest to the invention to the technical essence and the achieved result is an extractor for a solid-fluid system containing a vertical cylindrical body, braking adapted evenly strengthened over the cross-section of the body, a shaft with a mixing device, a device for loading solid material and a device for unloading it, made in the form of a self-cleaning auger with a pipe for the output of solids, as well as a device for the input and output of the liquid phase. However, the design of a known extractor does not prevent the raw material from floating, which reduces the intensity of the extraction process, and the location of the device for loading solid material cannot press the raw material, causing loss of the extractor in the raw material. The purpose of the invention is to intensify the extraction process and reduce the loss of the extractant in the raw material. The goal is achieved by the fact that in a continuous extractor for a system, a solid is a liquid containing a vertical cylindrical body, braking devices uniformly fixed over the cross section of the body, a shaft with a screw mixer placed on it, a device for loading and a device for unloading solid material with a pipe for the removal of solid material, made in the form of a self-cleaning auger and a device for the input and output of the liquid phase, a device for unloading solid material It is complete in the form of a continuous double-axial cone of a screw with a constant height of a coil placed coaxially to the shaft of the mixing device and mounted on the body flush with the end of the conical screw of a cylindrical chamber equipped with a scraper placed on the end of the screw. In addition, the device for introducing the liquid phase is made in the form of a cylindrical chamber located coaxially with the housing, while the surface of the housing placed inside the cylindrical chamber is perforated. Moreover, the device for the withdrawal of the liquid phase is made in the form of a cylindrical cup located in the lower part of the body, while the surface of the body placed inside the glass is perforated. FIG. 1 shows an extractor, a longitudinal section; FIG. 2 shows section A-A in FIG. 1. The extractor comprises a vertical cylindrical body 1, a shaft 2 with a permixing device placed on it, made in the form of a cylindrical continuous single-thread perforated ribbon auger 3, braking devices 4 made in the form of four rectangular plates fixed inside the extractor along the entire length forming cylindrical body evenly over its cross section. The device 5 for loading solid material includes a screw conveying device 6. A device for unloading solid material made in the form of a self-cleaning continuous two-way conical screw 7 with a constant height of coil 8 placed coaxially to the shaft 2 of the mixing device and mounted on the body 1 at the same level with end 9 of screw 7 of cylindrical chamber 10 with connecting pipe 11 connected thereto for outputting solid material equipped with a scraper 12 placed on end 9 of screw 7. Device for introducing liquid The phase has the form of a cylindrical chamber 13 with a nozzle 14, enclosing the body. In the part of the body covered by the chamber, holes 15 are made uniformly around the circumference. The device for outputting the liquid phase is a cylindrical cup 16 with a nozzle 17 located in the lower part of the body 1, having the shape of a perforated cup 18. The extractor works as follows. By the screw 6 of the loading device 5, the solid material is fed into the working part of the body and by a mixing device, which also plays the role of a transporting device, moves upwards along the body. Using a self-cleaning conical screw 7, the solid material is pressed and fed to the bottom of the cylindrical chamber 10, from where the scraper 12 is discharged into the nozzle 11 to extract the solid material. Through the pipe 14, the liquid phase is fed into the cylindrical chamber 13 and through the holes 15 penetrates into the working part of the extractor. Thus, the solid material, passing in countercurrent from the liquid phase, is washed with miscella containing a decreasing amount of extractive substances, and at the end of the extraction is washed with a clean extractant, is pressed by a self-cleaning screw 7 and is fed into the chamber 10, from where scraper 12 is brought into the nozzle 11. The proposed The extractor makes it possible to efficiently extract useful substances from various types of plant, mainly dried, herbal and floral raw materials. The design of the proposed extractor provides the movement of both phases in countercurrent, in which the solid material contacts the extractant with a gradually decreasing concentration. This intensifies the extraction process with a more complete: extracting with shorter process time and reduced extractant consumption by creating better conditions for the action of transfer mechanisms. The advantages of the proposed extractor in comparison with the known are the more developed surface of contact of the phases due to continuous washing of the moving raw material with the extractant, elimination of stagnant zones due to the movement of the raw material simultaneously in the longitudinal vertical direction and over the cross section of the body, as well as creating an obstacle to the floating of the unwetted dried grass and flower plant raw materials, to which extragoite did not have time to penetrate at the beginning of extraction, as the raw material moves upwards, is e in the space between the turns of the perforated screw mixing device. All these advantages of the way} cosiness of the process of extracting. In addition, the proposed extractor, in comparison with the known, allows reducing the loss of the extractant in the raw material by pressing the raw material while advancing it in a narrowing space between the wall of the housing and the conical self-cleaning screw of the device for unloading solid material. The basic object is ycTpotion for infusing vegetable raw materials with a water-alcohol solution, which is currently used to obtain infusions of dried herbal and floral raw materials in alcoholic and non-alcoholic industries. Work base ycTpoficTna

Claims (3)

1. EXTRACTOR OF CONTINUOUS ACTION FOR THE SYSTEM SOLID BODY LIQUID, containing a vertical cylindrical body, braking devices uniformly strengthened along the cross section of the body, a shaft with a screw mixing device placed on it, a device for loading solid material and a device for unloading with a nozzle for outputting solid material, made in the form of a self-cleaning screw and a device for input and output of the liquid phase, characterized in that, in order to intensify the extraction process and reduce ext agent in raw materials, the device for unloading solid material is made in the form of a continuous two-start (conical screw with a constant hundredth turn located coaxially to the shaft of the mixing device and mounted on the housing flush with the end face of the conical screw of the cylindrical chamber equipped with a scraper placed at the end auger. 2. The extractor according to claim 1, characterized in that the device for introducing the liquid phase is made in the form of a cylindrical chamber located coaxially with the housing, while the surface of the housing located inside the cylindrical chamber is perforated. 3. The extractor according to claim 1, characterized in that the device for outputting the liquid phase is made in the form of a cylindrical glass located in the lower part of the housing, while the surface of the housing located inside the glass is perforated. ΖδΖΤΓΓΓ'ηΞ 1 11